Abstract: A method and apparatus for providing a positive voltage spike to a semiconductor substrate pedestal during a portion of a high voltage power bias oscillation cycle to reduce or eliminate the detrimental effects of feature charging during the operation of a plasma reactor.

Abstract: This invention is a hardware modification which permits greater uniformity of etching to be achieved in a high-density-source plasma reactor (i.e., one which uses a remote source to generate a plasma, and which also uses high-frequency bias power on the wafer chuck). The invention addresses the uniformity problem which arises as the result of nonuniform power coupling between the wafer and the walls of the etch chamber. The solution to greatly mitigate the nonuniformity problem is to increase the impedance between the wafer and the chamber walls. This may be accomplished by placing a cylindrical dielectric wall around the wafer. Quartz is a dielectric material that is ideal for the cylindrical wall if silicon is to be etched selectively with respect to silicon dioxide, as quartz it is virtually inert under such conditions.

Abstract: A plasma reactor comprises an electromagnetic energy source coupled to a radiator through first and second variable impedance networks. The plasma reactor includes a chamber having a dielectric window that is proximate to the radiator. A shield is positioned between the radiator and the dielectric window. The shield substantially covers a surface of the radiator near the dielectric window. A portion of the radiator that is not covered by the shield is proximate to a conductive wall of the chamber. Plasma reactor operation includes the following steps. A plasma is ignited in a chamber with substantially capacitive electric energy coupled from the radiator. A variable impedance network is tuned so that the capacitive electric energy coupled into the chamber is diminished. The plasma is then powered with substantially magnetic energy.

Abstract: In one aspect, the invention encompasses a semiconductor processing method of forming a material over an uneven surface topology. A substrate having an uneven surface topology is provided. The uneven surface topology comprises a valley between a pair of outwardly projecting features. A layer of material is formed over the uneven surface topology. The layer comprises outwardly projecting portions over the outwardly projecting features of the surface topology and has a gap over the valley. The layer is etched, and the etching forms protective material within the gap while removing an outermost surface of the layer. The etching substantially does not remove the material from the bottom of the gap. In another aspect, the invention encompasses a semiconductor processing method of forming a material over metal-comprising lines. A first insulative material substrate is provided. A pair of spaced metal-comprising lines are formed over the substrate.

Abstract: A patterned organic masking layer is formed outwardly of a feature layer to be etched. It has at least one feature pattern having a minimum feature dimension of less than or equal to 0.3 micron. The feature layer has a thickness which is to be etched to form the one feature pattern in the feature layer. The feature pattern is plasma etched into the feature layer using the masking layer as a mask. The plasma etching comprises at least one etching segment where at least 30% of said thickness of the feature layer is etched using an etching gas comprising one gas compound comprising carbon, hydrogen and at least one halogen present at greater than or equal to 70% concentration by volume as compared to all carbon, hydrogen and halogen containing gas compounds in the etching gas.

Abstract: A plasma reactor comprises an electromagnetic energy source coupled to a radiator through first and second variable impedance networks. The plasma reactor includes a chamber having a dielectric window that is proximate to the radiator. A shield is positioned between the radiator and the dielectric window. The shield substantially covers a surface of the radiator near the dielectric window. A portion of the radiator that is not covered by the shield is proximate to a conductive wall of the chamber. Plasma reactor operation includes the following steps. A plasma is ignited in a chamber with substantially capacitive electric energy coupled from the radiator. A variable impedance network is tuned so that the capacitive electric energy coupled into the chamber is diminished. The plasma is then powered with substantially magnetic energy.

Abstract: A system and a process for plasma etching a semiconductor device. The technique comprises periodically applying a heightened voltage bias during the plasma etching process so as to reduce accumulated charge on the surface of the semiconductor device during plasma etching of the device. In one embodiment, a heightened positive voltage and heightened negative voltage is applied to the semiconductor device while plasma etching is occurring to thereby induce charge to be removed from the semiconductor device.

Abstract: In a copper plating process, a seed layer is uniformly deposited over a surface, including lining a high aspect ratio trench defined by that surface. A mask layer is provided using a process that fails to deposit in the trench. In one exemplary embodiment, the failure is due to the decrease in the isotropic flux of neutrals toward the bottom of the trench. Copper is subsequently electroplated. Because the seed layer is exposed only within the trench, copper deposits only therein. The self-aligned mask prevents plating outside of the trench. A chemical-mechanical planarization step removes the mask and the seed layer extending beyond the trench, leaving a copper structure within the trench. The structure may serve as a conductive line, an interconnect, or a capacitor plate.

Abstract: A method for controlling the voltage distribution of the standing wave impressed upon the coil of an inductively coupled plasma generator includes the steps of impressing a radio frequency voltage across the coil to establish a standing wave thereacross. A voltage profile is selected for the standing wave so as to control the location and amount of capacitive coupling. A circuit parameter is controlled to achieve the selected voltage profile. Proper selection of the voltage profile enhances process capabilities, decreases the time between cleans, minimizes component wear, and minimizes cleaning time. An apparatus for carrying out the disclosed method is also disclosed.

Abstract: Plasma etching processes using a plasma containing fluorine as well as bromine and/or iodine are suited for high aspect ratio etching of trenches, contact holes or other apertures in silicon oxide materials. The plasma is produced using at least one fluorine-containing source gas and at least one bromine- or iodine-containing source gas. Bromine/iodine components of the plasma protect the aperture sidewalls from lateral attack by free fluorine, thus advantageously reducing a tendency for bowing of the sidewalls. Ion bombardment suppresses absorption of bromine/iodine components on the etch front, thus facilitating advancement of the etch front without significantly impacting taper.

Abstract: This invention is a hardware modification which permits greater uniformity of etching to be achieved in a high-density-source plasma reactor (i.e., one which uses a remote source to generate a plasma, and which also uses high-frequency bias power on the wafer chuck). The invention addresses the uniformity problem which arises as the result of nonuniform power coupling between the wafer and the walls of the etch chamber. The solution to greatly mitigate the nonuniformity problem is to increase the impedance between wafer and the chamber walls. This may be accomplished by placing a cylindrical dielectric wall around the wafer. Quartz is a dielectric material that is ideal for the cylindrical wall if silicon is to be etched selectively with respect to silicon dioxide, as quartz it is virtually inert under such conditions.

Abstract: A method for forming an etched feature in a substrate such as an insulator layer of a semiconductor wafer is provided. In one embodiment, the method includes initially etching a substrate layer using a photoresist or other masking layer to form the etched feature (e.g., opening) to a selected depth, and depositing a self-aligning mask layer for a continued etch of the formed feature. In another embodiment of the method, the self-aligned mask is deposited onto a substrate having an etched opening or other feature, to protect the upper surface and corners of the substrate and sidewalls of the feature while the bottom portion of the opening is cleaned or material at the bottom portion of the opening is removed.

Abstract: A method for grounding a semiconductor substrate pedestal during a portion of a high voltage power bias oscillation cycle to reduce or eliminate the detrimental effects of feature charging during the operation of a plasma reactor.

Abstract: A method for grounding a semiconductor substrate pedestal during a portion of a high voltage power bias oscillation cycle to reduce or eliminate the detrimental effects of feature charging during the operation of a plasma reactor.

Abstract: A plasma process reactor is disclosed that allows for greater control in varying the functional temperature range for enhancing semiconductor processing and reactor cleaning. The temperature is controlled by splitting the process gas flow from a single gas manifold that injects the process gas behind the gas distribution plate into two streams where the first stream goes behind the gas distribution plate and the second stream is injected directly into the chamber.

Abstract: A patterned organic masking layer is formed outwardly of a feature layer to be etched. It has at least one feature pattern having a minimum feature dimension of less than or equal to 0.3 micron. The feature layer has a thickness which is to be etched to form the one feature pattern in the feature layer. The feature pattern is plasma etched into the feature layer using the masking layer as a mask. The plasma etching comprises at least one etching segment where at least 30% of said thickness of the feature layer is etched using an etching gas comprising one gas compound comprising carbon, hydrogen and at least one halogen present at greater than or equal to 70% concentration by volume as compared to all carbon, hydrogen and halogen containing gas compounds in the etching gas.

Abstract: A method of forming a periodic index of refraction pattern in a superlattice of a solid material to achieve photonic bandgap effects at desired optical wavelengths is disclosed. A plurality of space group symmetries, including a plurality of empty-spaced buried patterns, are formed by drilling holes in the solid material and annealing the solid material to form empty-spaced patterns of various geometries. The empty-spaced patterns may have various sizes and may be formed at different periodicities, so that various photonic band structures can be produced for wavelength regions of interest.

Abstract: A method and apparatus for grounding a semiconductor substrate pedestal during a portion of a high voltage power bias oscillation cycle to reduce or eliminate the detrimental effects of feature charging during the operation of a plasma reactor.

Abstract: In one aspect, the invention encompasses a semiconductor processing method of forming a material over an uneven surface topology. A substrate having an uneven surface topology is provided. The uneven surface topology comprises a valley between a pair of outwardly projecting features. A layer of material is formed over the uneven surface topology. The layer comprises outwardly projecting portions over the outwardly projecting features of the surface topology and has a gap over the valley. The layer is etched, and the etching forms protective material within the gap while removing an outermost surface of the layer. The etching substantially does not remove the material from the bottom of the gap. In another aspect, the invention encompasses a semiconductor processing method of forming a material over metal-comprising lines. A first insulative material substrate is provided. A pair of spaced metal-comprising lines are formed over the substrate.

Abstract: Mechanical stress is diminished by forming an oxidation mask with silicon nitride having a graded silicon concentration. Grading is accomplished by changing the silicon content in the silicon nitride. The silicon nitride can be graded in a substantially linear or non-linear fashion. In one embodiment, the graded silicon nitride may be formed with one type of non-linear silicon grading, an abrupt junction. In other embodiments, the silicon nitride is formed in a variety of shapes fashioned during or after silicon nitride growth. In one embodiment, the stress is reduced by forming a polysilicon buffer layer between two silicon nitride layers. In another embodiment, stress is reduced by forming the silicon nitride on a pad layer, which in turn is formed on a base layer.